Summary
Athletic strength and power refer to the forces or torques generated during sporting activity. Their assessment can be used for strength diagnosis or talent identification, to monitor the effects of training interventions and to estimate the relative significance of strength and power to particular athletic pursuits. However, strength and power assessment is a difficult task. Reasons for this include: the fledgling status of research within the area, our limited understanding of the mechanisms underpinning strength and power performance and development, and limitations associated with various forms of dynamometry. This article describes a frame work for the collection of data which may ultimately lead to recommendations for the assessment of strength and power in sporting contexts. Such a framework will be evolutionary and depends upon synergistic improvements in our understanding of: the physiological mechanisms underpinning strength and power development; the effect that various training regimens have upon the development of strength and power; and factors influencing the validity and reliability of dynamometry.
Currently, isometric, isoinertial and isokinetic dynamometry are employed in assessment. Each form has its supporters and detractors. Basically, proponents and critics of isokinetic and isometric dynamometry emphasise their apparently high external and apparently low internal validity respectively. While the converse applies for isoinertial dynamometry. It appears that all 3 modalities can have acceptable reliability, however this should be established rather than assumed, as the reliability of each can be threatened by a number of considerations (e.g. instruction for isometric tasks, the impact of weight used during weighted jumping tasks, and the effects of gravity and feedback on isokinetic performance). While reliability is a seminal issue in assessment, it is not the only critical issue. Specifically, there has been little research into the correlation between strength and power measures and athletic performance. This work is central to the use of such indices in talent identification. To date, this work has generally been limited to heterogeneous rather than homogeneous groups. More work is required in this area. Furthermore, not all modes of assessment are sensitive or similarly sensitive to various training interventions. This suggests that these modalities are measuring different neuromuscular qualities. How these qualities relate to performance requires more work, and will determine the contexts in which various strength and power assessment modalities and protocols are used. Following are conclusions from the review: (i) it is unlikely that one assessment procedure can be used for a multitude of ends (e.g. talent identification and monitoring the effects of training); (ii) different levels of athlete ability within a given sport may require different assessment regimens; (iii) minor changes in procedure may alter the usefulness of a procedure and (iv) we must be prepared to question assumptions pervading the field which are based upon anecdotal evidence. There are limitations with, and should be delimitations in the use of the various protocols and forms of dynamometry.
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References
Sale DG. Testing strength and power. In: MacDougall JD, Wenger HA, Green HJ, editors. Physiological testing of the high-performance athlete. Champaign, IL: Human Kinetics, 1991: 21–103
Schmidtbleicher D. Training for power events. In Komi PV, editor. Strength and power in sport. London: Blackwell Scientific, 1992: 381–95
Tidow G. Aspects of strength training in athletic. New Stud Athlet 1990; 1: 93–110
Harman E. Strength and power: a definition of terms. Natl Strength Conditioning Assoc J 1993; 15(6): 18–20
Hortobágyi T, Katch FI, LaChance PF. Interrelations among various measures of upper body strength assessed by different contraction modes. Evidence for a general strength development. Eur J Appl Physiol 1989; 58: 749–55
Baker D, Wilson G, Carlyon B. Generality versus specificity: a comparison of dynamic and isometric measures of strength and speed-strength. Eur J Appl Physiol 1994; 68: 350–5
Fry AC, Kraemer WJ, Weseman CA, et al. The effects of an offseason strength and conditioning program on starters and non-starters in women’s intercollegiate volleyball. J Appl Sport Sci Res 1991; 5: 174–81
Mero A, Luhtanen P, Viitasalo T, et al. Relationship between maximal running velocity, muscle fibre characteristics, force production and force relaxation of sprinters. Scand J Sports Sci 1981; 3: 16–22
Rohrs DM, Mayhew JL, Arabas C, et al. The relationship between seven anaerobic tests and swim performance. J Swimming Res 1990; 6: 15–9
Secher N. Isometric rowing strength of experienced and inexperienced oarsmen. Med Sci Sports Exerc 1975; 7: 280–3
Mastropaolo A. A test of the maximum-power stimulus theory for strength. Eur J Appl Physiol 1992; 65: 415–20
Sale DG. Neural adaptation to strength training. In: Komi PV, editor. Strength and power in sport. London: Blackwell Scientific, 1992: 249–65
Baltzopoulos V, Williams JG, Brodie DA. Sources of error in isokinetic dynamometry: effects of visual feedback on maximum torque measurements. J Orthop Sports Phys Ther 1991; 13: 138–42
Charteris J, Goslin BR. Effects of position and movement velocity on isokinetic force output at the knee. J Sports Med Phys Fitness 1982; 22: 154–60
Geron E, Inbar O. Motivation and anaerobic performance. In Simiri U, editor. The art and science of coaching: proceedings of an international seminar. Netanya: Wingate Institute for Education and Sport, 1980
Hanten WP, Ramberg CL. Effect of stabilization on maximal isokinetic torque of the quadricep femori muscle during concentric and eccentric contractions. Phys Ther 1988; 68: 219–22
Lindsay DM, Maitland ME, Lowe RC, et al. Comparison of isokinetic internal and external hip rotation torques using different testing positions. J Orthop Sports Phys Ther 1992; 16: 43–50
Molozyk L, Thigpen LK, Eickhoff J, et al. Reliability of testing the knee extensors and flexors in health adult women using a Cybex II isokinetic dynamometer. J Orthop Sports Phys Ther 1991; 14: 37–41
Surburg PR, Suomi R, Poppy WK. Validity and reliability of a hand-held dynamometer with two populations. J Orthop Sports Phys Ther 1992; 16: 229–34
Taylor RL, Casey JJ. Quadricep torque production on the Cybex II dynamometer as related to changes in lever arm length. J Orthop Sports Phys Ther 1986; 8: 147–52
Thomas JR, Nelson JK. Research methods in physical activity. 2nd ed. Champaign, IL: Human Kinetics, 1990: 344
Abe T, Kawakami Y, Ikegawa S, et al. Isometric and isokinetic knee joint performance in Japanese alpine ski racers. J Sports Med Phys Fitness 1992; 31: 353–7
Häkkinen K, Alen M, Komi PV. Neuromuscular, anaerobic and aerobic performance characteristics of elite power athletes. Eur J Appl Physiol 1984; 53: 97–105
Aura O, Viitasalo JT. Biomechanical characteristics of jumping. Int J Sport Biomech 1989; 5: 89–98
Häkkinen K, Komi PV, Kauhanen H. Electromyographic and force production characteristics of leg extensor muscles of elite weight lifters during isometric, concentric, and various stretch-shortening cycle exercises. Int J Sports Med 1986; 3: 144–51
Jaric S, Ristanovc D, Corcos M. The relationship between muscle kinetic parameters and kinematic variables in a complex movement. Eur J Appl Physiol 1989; 59: 770–6
Pryor JF, Wilson GJ, Murphy AJ. The effectiveness of eccentric, concentric and isometric rate of force development tests. J Hum Mov Stud 27: 153–172, 1994
Viitasalo JT, Aura A. Seasonal fluctuations in force production in high jumpers. Can J Appl Sport Sci 1984; 9: 209–13
Young WB, Bilby GE. The effect of voluntary effort to influence speed of contraction on strength, muscular power, and hypertrophy development. J Strength Conditioning Res 1993; 7: 172–8
Takei Y Techniques used by elite women gymnasts performing the handspring vault at the 1987 Pan American Games. Int J Sports Biomech 1990; 6: 29–55
Mero A, Komi PV, Gregor RJ. Biomechanics of sprint running. Sports Med 1992; 13: 376–92
Christ CB, Slaugter MH, Stillman RJ, et al. Reliability of selected parameters of isometric muscle function associated with testing 3 days × 3 trials in women. J Strength Conditioning Res 1994; 8: 65–71
Ashley CD, Weiss LW. Vertical jump performance and selected physiological characteristics of women. J Strength Conditioning Res 1994; 8: 5–11
Murphy AJ, Wilson GJ, Pryor JF, et al. The isometric assessment of muscular function: the effect of joint angle. J Appl Biomech. In press
Bobbert MF. Drop jumping as a training method for jumping ability. Sports Med 1990; 9: 7–22
Davies CTM, Young K. Effects of external loading on short term power output in children and young male adults. Eur J Appl Physiol 1984; 52: 351–4
Maud PJ, Schultz BB. Gender comparisons in anaerobic power and capacity tests. Br J Sports Med 1986; 20: 51–4
Sargeant DA. The physical test of a man. Am Phys Educ Rev 1921; 26: 188–94
Vandewalle H, Pérés G, Monod H. Standard anaerobic exercise tests. Sports Med 1987; 4: 268–89
Komi PV. Stretch-shortening cycle. In: Komi PV, editor. Strength and power in sport. London: Blackwell Scientific, 1992
Wilson GJ, Elliott BC, Wood GA. The effect of imposing a pause during a stretch shorten cycle movement. Med Sci Sports Exerc 1991; 23: 364–70
Siff MC. Understanding the mechanics of muscle contraction. Natl Strength Conditioning Assoc J 1993; 15: 5: 30–3
Wilson GJ, Newton RU, Murphy AJ, et al. The optimal training load for the development of athletic performance. Med Sci Sports Exerc 1993; 25: 1279–86
Bloomfield J, Blanksby BA, Ackland TR, et al. The influence of strength training on overhead throwing velocity of elite water polo players. Aust J Sci Med Sport 1990; 22: 63–7
Hennessy LC, Watson AWS. The interference effects of training for strength and endurance simultaneously. J Strength Conditioning Res 1994; 8(1): 12–9
Tanaka H, Costill DL, Thomas R, et al. Dry-land resistance training for competitive swimming. Med Sci Sports Exerc 1993; 25: 952–9
Häkkinen K, Komi PV, Alen M, et al. EMG, muscle fibre and force production characteristics during a one year training period in elite weight-lifters. Eur J Appl Physiol 1987; 56: 419–27
Häkkinen K, Pakarinen H. Alen M, et al. Neuromuscular and hormonal adaptations in athletes to strength training in two years. J Appl Physiol 1988; 65: 2406–12
Viitasalo JT. Measurement of force-velocity characteristics for sportsmen in field conditions. In: Winter DA, Norman RW, Wells RP, et al., editors. Biomechanics IX-A. Champaign, IL: Human Kinetics, 1985: 96–101
Viitasalo JT. Effects of training on force-velocity characteristics. In: Winter DA, Norman RW, Wells RP, et al., editors. Biomechanics IX-A. Champaign, IL: Human Kinetics 1985b: 91–5
Marshall RN, Taylor NAS. The skeletal muscle force-velocity relationships, 1: its significance and its measurement. N Z J Sports Med 1990; 18(1): 8–10
Marshall RN, Mazur SM, Taylor NAS. Three-dimensional surfaces for human muscle kinetics. Eur J Appl Physiol 1990; 61: 263–70
Taylor NAS, Cotter JD, Stanley SN, et al. Functional torque-velocity and power-velocity characteristics of elite athletes. Eur J Appl Physiol 1991; 62: 116–21
Mahler P, Mora C, Gremion G, et al. Isotonic muscle evaluation and sprint performance. Excel 1992; 8: 139–45
Denegar CR, Ball DW. Assessing reliability and precision of measurement: an introduction to intraclass correlation and standard error of measurement. J Sport Rehab 1993; 2: 35–42
Gore CJ. Accreditation of exercise physiology laboratories. National Sport Science Accreditation Committee — Laboratory Standards Assistance Scheme. Adelaide: Australian Sports Commission, 1994
Abernethy PJ. Influence of acute endurance activity on isokinetic strength. J Strength Conditioning Res 1993; 7(3): 141–6
Agre JC, Magness JL, Hull SZ, et al. Strength testing with a portable dynamometer: reliability for upper and lower extremities. Arch Phys Med Rehab 1987; 68: 454–8
Bemben MG, Massey BH, Boileau RA, et al. Reliability of isometric force-time curve parameters for men aged 20 to 79 years. J Appl Sport Sci Res 1992; 6: 158–64
Viitasalo JT, Hakkinen K, Komi PV. Isometric and dynamic force production and muscle fibre composition in man. J Human Movement Stud 1981; 7: 199–209
Going SB, Massey BH, Hoshizaki TB, et al. Maximal voluntary isometric force production characteristics of skeletal muscle in children 8–11 years of age. Res Q Exerc Sport 1987; 58: 115–23
Kroll W. A note on the coefficient of intraclass correlation as an estimate of reliability. Res Q Exerc Sport 1962; 33: 313–6
Kroll W. Reliability of a selected measure of human strength. Res Q Exerc Sport 1962; 33: 410–7
Bemben MG, Clasey JL, Massey BH. The effect of the rate of muscle contraction on the force-time curve parameters of male and female subjects. Res Q Exerc Sport 1990; 61: 96–9
Rutherford OM, Jones DA. The role of learning and coordination in strength training. Eur J Appl Physiol 1986; 55: 100–5
Ryushi T, Hakkinen K, Kauhanen H, et al. Muscle fibre characteristics, muscle cross-sectional area and force production in strength athletes, physically active males and females. Scand J Sports Sci 1988; 10: 7–15
Sale DG, Martin JE, Moroz DE. Hypertrophy without increased isometric strength after weight training. Eur J Appl Physiol 1992; 64: 51–5
Hoeger WWK, Hopkins DR, Barette SL, et al. Relationship between repetitions and selected percentages of one repetition maximum: a comparison between untrained and trained males and females. J Appl Sport Sci Res 1990; 4: 47–54
Hortobágyi T, Katch FI. Reliability of muscle mechanical characteristics for isokinetic and isotonic squat and bench press exercise using a multifunction computerized dynamometer. Res Q Exerc Sport 1990; 61: 191–95
Tihanyi J, Apor P, Fekete Gy. Force-velocity-power characteristics and fiber composition in human knee extensor muscles. Eur J Appl Physiol 1982; 48: 331–43
Anderson T, Kearney JT. Effects of three resistance training programs on muscular strength and absolute and relative endurance. Res Q Exerc Sport 1983; 53: 1–7
Weir JP, Wagner LL, Housh TJ. The effect of rest interval length on repeated maximal bench presses. J Strength Conditioning Res 1994; 8: 58–60
Sewall LP, Lander JE. The effects of rest on maximal efforts in squat and bench press. J Appl Sport Sci Res 1991; 5: 96–9
Brzycki M. Strength testing: predicting a one-rep max from reps-to-fatigue. J Health, Phys Educ, Recr Dance 1993; 64: 88–90
Lander J. Maximums based on reps. Natl Strength Conditioning Assoc J 1985; 6: 60–1
Mayhew JL, Ball TE, Bowen JC. Prediction of bench press lifting ability from submaximal repetitions before and after training. Sports Med Training Rehab 1992; 3: 195–201
Mayhew JL, Ware JR, Prinster JL. Using lift repetitions to predict muscular strength in adolescent males. Natl Strength Conditioning Assoc J 1993; 15: 6: 35–8
Feiring DC, Ellenbecker TS, Dersheid GL. Test-retest reliability of the Biodex isokinetic dynamometer. J Orthop Sports Phys Ther 1990; 11: 298–300
Francis K, Hoobler T. Comparison of peak torque value of the knee flexor and extensor muscle groups using the Cybex II and Lido 2.0 isokinetic dynamometers. J Orthop Sports Phys Ther 1987; 8: 480–3
McCleary RW, Andersen JC. Test-retest reliability of reciprocal isokinetic knee extension and flexion peak torque measurements. J Athletic Training 1992; 27: 362–5
Osternig LR. Isokinetic dynamometry: implications for muscle testing and rehabilitation. Exerc Sport Sci Rev 1986; 14: 45–80
Snow CJ, Blacklin K. Reliability of knee flexor peak torque measurements from a standardized test protocol on a Kin/Com dynamometer. Arch Phys Med Rehab 1992; 73: 15–21
Seger JY, Westing SM, Hanson M, et al. A new dynamometer measuring concentric and eccentric muscle strength in accelerated, decelerated or isokinetic movements. Eur J Appl Physiol 1988; 57: 526–30
Wilhite MR, Cohen ER, Wilhite SC. Reliability of concentric and eccentric measurements of quadriceps performance using the KIN-COM dynamometer: the effect of testing order for three different speeds. J Orthop Sports Phys Ther 1992; 15: 175–82
Wennerberg D. Reliability of an isokinetic dorsiflexion and plantar flexion apparatus. Am J Sports Med 1991; 19: 519–22
Walmsley RP, Szybbo C. A comparative study of the torque generated by the shoulder internal and external rotator muscles in different positions and at varying speeds. J Orthop Sports Phys Ther 1987; 9: 217–22
Harding B, Black T, Bruulsema A, et al. Reliability of a reciprocal test protocol performed on the kinetic communicator: an isokinetic test of knee extensor and flexor strength. J Orthop Sports Phys Ther 1988; 10: 218–23
Bobbert MF, van Ingen Schenau GJ. Isokinetic plantar flexion: experimental results and model calculations. J Biomech 1990; 23: 105–19
Caiozzo VJ, Barnes WS, Prietto CA, et al. The effect of isometric precontractions on the slow velocity-high force region of the in vivo force-velocity relationship. Med Sci Sports Exerc 1981; 13: 128
Caiozzo VJ, Laird T, Chow K, et al. The use of precontractions to enhance the in vivo force-velocity relationship. Med Sci Sports Exerc 1982; 14: 162
Helgeson K, Gajdosik RL. The stretch-shortening cycle of the quadriceps femoris muscle group measured by isokinetic dynamometry. J Orthop Sports Phys Ther 1993; 17: 17–23
Kramer JF, Vaz MD, Hakansson D. Effect of activation force on knee extensor torques. Med Sci Sports Exerc 1991; 23: 231–7
Svantesson U, Ernstoff B, Bergh P, et al. Use of a Kin-Com dynamometer to study the stretch-shortening cycle during plantar flexion. Eur J Appl Physiol 1991; 62: 415–9
Baltzopoulos V, Brodie DA. Isokinetic dynamometry: applications and limitations. Sports Med 1989; 8: 101–16
Gross MT, Huffman GM. Philips CN, et al. Intra-machine and intermachine reliability of the Biodex and Cybex II for knee flexion and extension peak torque and angular work. J Orthop Sports Phys Ther 1991; 13: 329–35
Hald RD, Bottjen EJ. Effect of visual feedback of maximal and submaximal isokinetic test measurements of normal quadriceps and hamstrings. J Orthop Sports Phys Ther 1987; 9: 86–93
Grabiner MD, Jeziorowski JJ, Divekar AD. Isokinetic measurements of trunk extension and flexion performance collected with the Biodex clinical data situation. J Orthop Sports Phys Ther 1990; 11: 590–8
Ihara H, Nakayama A. Dynamic joint control training for knee ligament injuries. Am J Sports Med 1986; 14: 309–15
Thigpen LK, Blanke D, Lang P. The reliability of two different Cybex isokinetic systems. J Orthop Sports Phys Ther 1990; 12: 157–62
Thompson MC, Shingleton LG, Keggerreis ST. Comparison of value generated during testing of the knee using the Cybex II Plus and Biodex Model B-2000 isokinetic dynamometers. J Orthop Sports Phys Ther 1989; 11: 108–15
Callister R, Shealy MJ, Fleck SJ, et al. Performance adaptations to sprint, endurance and both modes of training. J Appl Sport Sci Res 1988; 2: 46–51
Considine W, Sullivan W. Relationship of selected tests of leg strength and leg power on college men. Res Q Exerc Sport 1973; 44: 404–15
Fry AC, Kraemer WJ. Physical performance characteristics of American football players. J Appl Sport Sci Res 1991; 5: 126–39
Fry RW, Morton AR. Physiological and kinanthroprometric attributes of elite flat-water kayakists. Med Sci Sports Exerc 1991; 23: 1297–301
Genuario S, Dolgener F. The relationship of isokinetic torque at two speeds to the vertical jump. Res Q Exerc Sport 1980; 51: 593–8
Harman E, Frykman P, Rosenstein M, et al. The relationship of individual torque velocity shapes to sprint running performance. Med Sci Sports Exerc 1990; 22: 58
Humphries BJ, Wilson GJ, Abernethy PJ. Continuous, isokinetic and stretch shorten cycle measures of a muscular power-endurance performance [abstract]. In: Abernethy B, Locke S, Cafferky L, et al. Sports Medicine Australia’s International Conference of Science in Medicine in Sport; 1994 Sep, Brisbane: 170–1
Komi PV, Suominen H, Heikkinen E, et al. In: Komi PV, editor. Exercise and sports biology. Champaign, IL: Human Kinetics, 1982: 90–102
Mayhew JL, Piper FC, Schwegler TM, et al. Contributions of speed, agility and body composition to anaerobic power measurement in college football players. J Appl Sport Sci Res 1989; 3: 101–6
Misner JE, Boileau RA, Plowman SA, et al. Leg power characteristics of female firefighter applicants. J Occup Med 1988; 30: 433–7
Pryor JF, Wilson GJ, Murphy AJ. The effectiveness of eccentric, concentric and isometric rate of force development tests. J Hum Mov Stud 27; 1994: 153–72
Seiler S, Taylor M, Diana R, et al. Assessing anaerobic power in collegiate football players. J Appl Sport Sci Res 1990; 4: 9–15
Murphy AI, Wilson GJ, Pryor JF. The use of the isoinertial force mass relationship in the prediction of dynamic human performance. Eur J Appl Physiol 1994; 69: 250–7
Shetty AB. Quantification of selected segmental strengths in weightlifting. J Appl Sport Sci Res 1990; 4: 37–41
Froese EA, Houston ME. Torque-velocity characteristics and muscle fiber type in human vastus lateralis. J Appl Physiol 1985; 59: 309–14
Hunt GC, Fromherz WA, Danoff J, et al. Femoral transverse torque: an assessment method. J Orthop Sports Phys Ther 1986; 7: 319–24
Poulin MJ, Vandervoort AA. Paterson DH, et al. Eccentric and concentric torques of knee and elbow extension in young and older men. Can J Sports Sci 1992; 17: 3–7
Stoessel L, Stone MH, Keith R, et al. Selected physiological, psychological and performance characteristics of national-caliber United States women weightlifters. J Appl Sport Sci Res 1991; 5: 87–95
Wong DLK, Glasheen-Wray M, Andrews LF. Isokinetic evaluation of the ankle invertors and evertors. J Orthop Sports Phys Ther 1984; 5: 246–52
Black W, Roundy E. Comparisons of size, strength, speed, and power in NCAA Division 1-A football players. J Strength Conditioning Res 1994; 8: 80–5
Housh TJ, Johnson GO, Marty L, et al. Isokinetic leg flexion and extension strength of university football players. J Orthop Sports Phys Ther 1988; 9: 365–9
Kroll W, Clarkson PM, Kamen G, et al. Muscle fiber type composition and knee extension isometric strength fatigue patterns in power- and endurance-trained males. Res Q Exerc Sport 1980; 51: 323–33
Bauer T, Thayer RE, Baras G. Comparison of training modalities for power development in the lower extremity. J Appl Sport Sci Res 1990; 4: 115–21
Abernethy PJ, Quigley BM. Concurrent strength and endurance training of the elbow extensors. J Strength Conditioning Res 1993; 7(4): 234–40
Brazell-Roberts JV, Thomas LE. Effects of weight training frequency on self-concept of college females. J Appl Sport Sci Res 1989; 3: 40–3
Behm DG. An analysis of intermediate speed resistance exercises for velocity-specific strength gains. J Appl Sport Sci Res 1991; 5: 1–5
Bell GJ, Wenger HA. Physiological adaptations to velocity-controlled resistance training. Sports Med 1992; 13: 234–44
Craig BW, Lucas J, Pohlman R. The effects of running, weightlifting and a combination of both on growth hormone release. J Appl Sport Sci Res 1991; 5: 198–203
Dudley GA, Djamil R. Incompatibility of endurance- and strength-training modes of exercise. J Appl Physiol 1985; 54: 582–6
Ewing J, Wolfe D, Rogers M, et al. Effects of velocity of isokinetic training on strength, power, and quadriceps muscle fibre characteristics. Eur J Appl Physiol 1990; 61: 159–62
Fry AC, Powell DR. Studies and researches: hamstrings/quadriceps parity with three different weight training methods. J Sports Med Phys Fitness 1987; 27: 362–7
Gemar JA. The effect of weight training and plyometric training on vertical jump, standing long jump and forty meter sprint. 1 microfiche (86fr.). Eugen, OR: Microform Publications, College of Human Development and Performance, University of Oregon, 1988
Hickson RC. Interference of strength development by simultaneously training for strength and endurance. Eur J Appl Physiol 1980; 45: 255–63
Kanehisa H, Mitsumasa M. Specificity of velocity in strength training. Eur J Appl Physiol 1983; 52: 104–6
O’Bryant HS, Byrd R, Stone MH. Cycle ergometer performance and maximum leg and hip strength adaptations to two different methods of weight training. J Appl Sport Sci Res 1988; 2: 27–30
O’Shea KL, O’Shea JP. Functional isometric weight training: its effects on dynamic and static strength. J Appl Sport Sci Res 1989; 3: 30–3
Pearson DR, Castill DL. The effects of constant external resistance exercise and isokinetic exercise trainin on work-induced hypertrophy. J Appl Sport Sci Res 1988; 2: 39–41
Sale DG, MacDougall JD, Jacobs I, et al. Interaction between concurrent strength and endurance training. J Appl Physiol 1990; 68: 260–70
Schmidtbleicher D, Haralambie G. Changes in contractile properties of muscle after strength training in man. Eur J Appl Physiol 1981; 46: 221–8
Wenzel RR, Perfetto EM. The effect of speed versus non-speed training in power development. J Appl Sport Sci Res 1992; 6: 82–7
Clarkson PM, Droll W, Melchionda AM. Isokinetic strength, endurance and fibre types in elite American paddlers. Eur J Appl Physiol 1982; 48: 67–76
Nygaard E, Houston M, Suzuki Y, et al. Morphology of the biceps brachii muscle and elbow flexion in man. Acta Physiol Scand 1983; 117: 287–92
Suter E, Herzog W, Sokolosky J, et al. Muscle fiber type distribution as estimated by Cybex testing and by muscle biopsy. Med Sci Sports Exerc 1993; 25: 363–70
Thorstensson A, Hulten B, Dobeln W, et al. Effect of strength training on enzyme activities and fibre characteristics in human skeletal muscle. Acta Physiol Scand 1976; 96: 392–8
Thorstensson A, Larsson L, Tesch P, et al. Muscle strength and fiber composition in athletes and sedentary men. Med Sci Sports Exerc 1977; 9: 26–30
Abernethy PJ, Jürimäe J, Logan PA, et al. Acute and chronic responses of skeletal muscle to resistance exercise. Sports Med 1994; 17: 22–38
Häkkinen K, Alen M, Komi PV. Changes in isometric force- and relaxation-time, electromyographic and muscle fibre characteristics of human skeletal muscle during strength training and detraining. Acta Physiol Scand 1985; 125: 573–85
Häkkinen K, Komi PV, Alen M. Effect of explosive training on isometric force- and relaxation-time, electromyographic and muscle fibre characteristics of leg extensor muscles. Acta Physiol Scand 1985; 125: 587–600
Komi PV. Physiological and biomechanical correlates of muscle function: effects of muscle structure and stretch-shortening cycle on force and speed. Exerc Sport Sci Rev 1984; 12: 81–121
Huijing PA. Elastic potential of muscle. In Komi PV, editor. Strength and power in sport. London: Blackwell Scientific, 1992
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Abernethy, P., Wilson, G. & Logan, P. Strength and Power Assessment. Sports Med 19, 401–417 (1995). https://doi.org/10.2165/00007256-199519060-00004
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DOI: https://doi.org/10.2165/00007256-199519060-00004